Introduction to finding the centroid of a common W-flange shape and finding its respective moment of inertia with some talk about its importance and other things.
I rarely comment on RUclips videos and this is my first comment to ever drop from this account. This is so underrated. Simple yet concise unlike those animated RUclips content yet can’t even convey the principle well. You did portray it as if it’s just as easy as it seems despite the complexity of the topic. Keep posting more video, please. I’m preparing for boards and structural is a complex yet essential subject.
I rarely comment on RUclips videos and this is my first comment to ever drop from this account. This is so underrated. Simple yet concise unlike those animated RUclips content yet can’t even convey the principle well. You did portray it as if it’s just as easy as it seems despite the complexity of the topic. Keep posting more video, please. I’m preparing for boards and structural is a complex yet essential subject.
I learned a lot from this video thank you very much!
15:00 spoken like a Chad.
Hahahaha, just busted out laughing in a public library.
well...
I challenge you to find a less sarcastic engineering student lol.
Great vid, helped a lot.
Dude this helped so much, quality content. The whiteboard would definitely have helped though 👌
Thanks for such a clear explanation
the bottom part of yuor calculations are not visible
Maybe show the full page so we can follow along, apart from that good video
There is a mistake when talking about maximum deflection of beam under uniformly distributed load. Should be 5wL^4/384EI
Agree
12 + 11 + 1 = 24 not 23
what a G
Do selection modulus sir pls
Bro I appreciate the help but like why are you hiding the math ad you plug it in, show that shit!
more videos pls
Looks like you caught the error in the next part of the video!
Nice hands btw